Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells

Qingfeng Chen; Anburaj Amaladoss; Weijian Ye; Min Liu; Sara Dummler; Fang Kong; Lan Hiong Wong; Hooi Linn Loo; Eva Loh; Shu Qi Tan; Thiam Chye Tan; Kenneth T.E. Chang; Ming Dao; Subra Suresh; Peter R. Preiser; Jianzhu Chen

doi:10.1073/pnas.1323318111

Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells

Qingfeng Chen, Anburaj Amaladoss, Weijian Ye, Min Liu, Sara Dummler, Fang Kong, Lan Hiong Wong, Hooi Linn Loo, Eva Loh, Shu Qi Tan, Thiam Chye Tan, Kenneth T.E. Chang, Ming Dao, Subra Suresh, Peter R. Preiser, Jianzhu Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

69 Citations (Scopus)

Abstract

Immunodeficient mouse-human chimeras provide a powerful approach to study host-specific pathogens, such as Plasmodium falciparum that causes human malaria. Supplementation of immunodeficient mice with human RBCs supports infection by human Plasmodium parasites, but these mice lack the human immune system. By combining human RBC supplementation and humanized mice that are optimized for human immune cell reconstitution, we have developed RBC-supplemented, immune cell-optimized humanized (RICH) mice that support multiple cycles of P. falciparum infection. Depletion of human natural killer (NK) cells, but not macrophages, in RICH mice results in a significant increase in parasitemia. Further studies in vitro show that NK cells preferentially interact with infected RBCs (iRBCs), resulting in the activation of NK cells and the elimination of iRBCs in a contact-dependent manner. We show that the adhesion molecule lymphocyte-associated antigen 1 is required for NK cell interaction with and elimination of iRBCs. Development of RICH mice and validation of P. falciparum infection should facilitate the dissection of human immune responses to malaria parasite infection and the evaluation of therapeutics and vaccines.

Original language	English
Pages (from-to)	1479-1484
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	4
DOIs	https://doi.org/10.1073/pnas.1323318111
Publication status	Published - Jan 28 2014
Externally published	Yes

ASJC Scopus Subject Areas

General

Keywords

Humanized mouse model
LFA-1
Malaria infection
NK killing

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1073/pnas.1323318111

Cite this

Chen, Q., Amaladoss, A., Ye, W., Liu, M., Dummler, S., Kong, F., Wong, L. H., Loo, H. L., Loh, E., Tan, S. Q., Tan, T. C., Chang, K. T. E., Dao, M., Suresh, S., Preiser, P. R., & Chen, J. (2014). Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells. Proceedings of the National Academy of Sciences of the United States of America, 111(4), 1479-1484. https://doi.org/10.1073/pnas.1323318111

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title = "Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells",

abstract = "Immunodeficient mouse-human chimeras provide a powerful approach to study host-specific pathogens, such as Plasmodium falciparum that causes human malaria. Supplementation of immunodeficient mice with human RBCs supports infection by human Plasmodium parasites, but these mice lack the human immune system. By combining human RBC supplementation and humanized mice that are optimized for human immune cell reconstitution, we have developed RBC-supplemented, immune cell-optimized humanized (RICH) mice that support multiple cycles of P. falciparum infection. Depletion of human natural killer (NK) cells, but not macrophages, in RICH mice results in a significant increase in parasitemia. Further studies in vitro show that NK cells preferentially interact with infected RBCs (iRBCs), resulting in the activation of NK cells and the elimination of iRBCs in a contact-dependent manner. We show that the adhesion molecule lymphocyte-associated antigen 1 is required for NK cell interaction with and elimination of iRBCs. Development of RICH mice and validation of P. falciparum infection should facilitate the dissection of human immune responses to malaria parasite infection and the evaluation of therapeutics and vaccines.",

keywords = "Humanized mouse model, LFA-1, Malaria infection, NK killing",

author = "Qingfeng Chen and Anburaj Amaladoss and Weijian Ye and Min Liu and Sara Dummler and Fang Kong and Wong, \{Lan Hiong\} and Loo, \{Hooi Linn\} and Eva Loh and Tan, \{Shu Qi\} and Tan, \{Thiam Chye\} and Chang, \{Kenneth T.E.\} and Ming Dao and Subra Suresh and Preiser, \{Peter R.\} and Jianzhu Chen",

year = "2014",

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doi = "10.1073/pnas.1323318111",

language = "English",

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Chen, Q, Amaladoss, A, Ye, W, Liu, M, Dummler, S, Kong, F, Wong, LH, Loo, HL, Loh, E, Tan, SQ, Tan, TC, Chang, KTE, Dao, M, Suresh, S, Preiser, PR & Chen, J 2014, 'Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells', Proceedings of the National Academy of Sciences of the United States of America, vol. 111, no. 4, pp. 1479-1484. https://doi.org/10.1073/pnas.1323318111

TY - JOUR

T1 - Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells

AU - Chen, Qingfeng

AU - Amaladoss, Anburaj

AU - Ye, Weijian

AU - Liu, Min

AU - Dummler, Sara

AU - Kong, Fang

AU - Wong, Lan Hiong

AU - Loo, Hooi Linn

AU - Loh, Eva

AU - Tan, Shu Qi

AU - Tan, Thiam Chye

AU - Chang, Kenneth T.E.

AU - Dao, Ming

AU - Suresh, Subra

AU - Preiser, Peter R.

AU - Chen, Jianzhu

PY - 2014/1/28

Y1 - 2014/1/28

N2 - Immunodeficient mouse-human chimeras provide a powerful approach to study host-specific pathogens, such as Plasmodium falciparum that causes human malaria. Supplementation of immunodeficient mice with human RBCs supports infection by human Plasmodium parasites, but these mice lack the human immune system. By combining human RBC supplementation and humanized mice that are optimized for human immune cell reconstitution, we have developed RBC-supplemented, immune cell-optimized humanized (RICH) mice that support multiple cycles of P. falciparum infection. Depletion of human natural killer (NK) cells, but not macrophages, in RICH mice results in a significant increase in parasitemia. Further studies in vitro show that NK cells preferentially interact with infected RBCs (iRBCs), resulting in the activation of NK cells and the elimination of iRBCs in a contact-dependent manner. We show that the adhesion molecule lymphocyte-associated antigen 1 is required for NK cell interaction with and elimination of iRBCs. Development of RICH mice and validation of P. falciparum infection should facilitate the dissection of human immune responses to malaria parasite infection and the evaluation of therapeutics and vaccines.

AB - Immunodeficient mouse-human chimeras provide a powerful approach to study host-specific pathogens, such as Plasmodium falciparum that causes human malaria. Supplementation of immunodeficient mice with human RBCs supports infection by human Plasmodium parasites, but these mice lack the human immune system. By combining human RBC supplementation and humanized mice that are optimized for human immune cell reconstitution, we have developed RBC-supplemented, immune cell-optimized humanized (RICH) mice that support multiple cycles of P. falciparum infection. Depletion of human natural killer (NK) cells, but not macrophages, in RICH mice results in a significant increase in parasitemia. Further studies in vitro show that NK cells preferentially interact with infected RBCs (iRBCs), resulting in the activation of NK cells and the elimination of iRBCs in a contact-dependent manner. We show that the adhesion molecule lymphocyte-associated antigen 1 is required for NK cell interaction with and elimination of iRBCs. Development of RICH mice and validation of P. falciparum infection should facilitate the dissection of human immune responses to malaria parasite infection and the evaluation of therapeutics and vaccines.

KW - Humanized mouse model

KW - LFA-1

KW - Malaria infection

KW - NK killing

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AN - SCOPUS:84893342036

SN - 0027-8424

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EP - 1484

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 4

ER -

Human natural killer cells control Plasmodium falciparum infection by eliminating infected red blood cells

Abstract

ASJC Scopus Subject Areas

Keywords

UN SDGs

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